水稻双受精过程的细胞形态学及时间进程的观察

应用常规石蜡切片和荧光显微镜观察水稻(Oryz a sativa)受精过程中雌雄性细胞融合时的形态特征及时间进程, 确定合子期, 为花粉管通道转基因技术的实施提供理论依据。结果表明: 授粉后, 花粉随即萌发, 花粉管进入羽毛状柱头分支结构的细胞间隙, 继续生长于花柱至子房顶部的引导组织的细胞间隙中, 而后进入子房, 在子房壁与外珠被之间的缝隙中向珠孔方向生长, 花粉与花粉管均具有明显的绿色荧光。花粉管经珠孔及珠心表皮细胞间隙进入一个助细胞, 释放精子。精子释放前, 两极核移向卵细胞的合点端; 两精子释放于卵细胞与中央细胞的间隙后, 先后脱去细胞质, 然后分别移向卵核和极核, 移向卵核的精核快于移向极核的精核; 精核与两极核在向反足细胞团方向移动的过程中完成雌雄核融合。大量图片显示了雌雄性核融合的详细过程以及多精受精现象。水稻受精过程经历的时间表如下: 授粉后, 花粉在柱头萌发; 花粉萌发至花粉管进入珠孔大约需要0.5小时; 授粉后0.5小时左右, 花粉管进入一个助细胞, 释放精子; 授粉后0.5-2.5小时, 精卵融合形成合子; 授粉后约10.0小时, 合子第1次分裂, 合子期为授粉后2.5-10.0小时; 授粉后1.0-3.0小时, 精核与两极核融合; 授粉后约5.0小时, 初生胚乳核分裂。     

杂交石竹授粉受精及其胚胎发育过程的观察

以‘杂交石竹’为试验材料,利用荧光显微镜观察其授粉后花粉萌发、花粉管生长情况,采用石蜡切片法对其受精及胚胎发育过程进行观察研究。结果表明:(1)授粉后1h母本柱头上少量花粉开始萌发;授粉后4h大量花粉萌发,花粉管生长至柱头中部有胼胝质出现;授粉后6h花粉管生长至子房组织并有少量与胚珠结合;授粉后15h柱头中出现大量胼胝质,花粉管与胚珠结合数增多;授粉后24h胚珠周围出现多条花粉管,其中1条花粉管进入胚珠,部分进入胚囊的花粉管卷曲盘绕生长并产生胼胝质;精细胞与极核的融合主要发生在授粉后17~48h,与卵细胞融合主要于授粉后1~3d。(2)杂交石竹胚发育经过原胚、球形胚、棒状形胚、心形胚、鱼雷形胚和子叶形胚阶段。(3)杂交障碍表现为:只有游离的胚乳核而无胚发育的胚囊、合子未分裂、两极核未融合、球形胚败育。研究表明,杂交石竹存在受精前和受精后障碍,这是导致其结实率低的主要原因。     

水稻双受精过程的细胞形态学及时间进程的观察

应用常规石蜡切片和荧光显微镜观察水稻（Oryza sativa）受精过程中雌雄性细胞融合时的形态特征及时间进程,确定合子期,为花粉管通道转基因技术的实施提供理论依据。结果表明：授粉后,花粉随即萌发,花粉管进入羽毛状柱头分支结构的细胞间隙,继续生长于花柱至子房顶部的引导组织的细胞间隙中,而后进入子房,在子房壁与外珠被之间的缝隙中向珠孔方向生长,花粉与花粉管均具有明显的绿色荧光。花粉管经珠孔及珠心表皮细胞间隙进入一个助细胞,释放精子。精子释放前,两极核移向卵细胞的合点端：两精子释放于卵细胞与中央细胞的间隙后,先后脱去细胞质,然后分别移向卵核和极核,移向卵核的精核快于移向极核的精核：精核与两极核在向反足细胞团方向移动的过程中完成雌雄核融合。大量图片显示了雌雄性核融合的详细过程以及多精受精现象。水稻受精过程经历的时间表如下：授粉后,花粉在柱头萌发：花粉萌发至花粉管进入珠孔大约需要0．5小时：授粉后0．54,时左右,花粉管进入一个助细胞,释放精子：授粉后0．5—2．5小时,精卵融合形成合子：授粉后约10．0小时,合子第1次分裂,合子期为授粉后2．5-10．04,时：授粉后1．0-3．04,时,精核与两极核融合：授粉后约5．0小时,初生胚乳核分裂。’     

慈菇属植物的花粉管再分配现象

当花粉落到柱头上,并与柱头识别后,花粉萌发长出花粉管等一系列过程,在被子植物有性生殖中占有很重要的地位。正是由于具备萌发条件的花粉长出花粉管,并产生的雄性配子——精子,然后通过花粉管的伸长生长,被输送到胚珠的胚囊内与卵细胞和极核融合,完成被子植物所特有的双受精过     

芥菜型油菜与白菜正反杂交的胚胎学研究

利用荧光技术对芥菜型油菜(Brassica juncea)与白菜(B. pekinesis)种间正反杂交后花粉萌发和花粉管生长过程进行了观察。结果显示: 芥菜型油菜与白菜正交授粉后, 花粉在柱头上能正常萌发, 多数花粉管沿花柱到达胚珠完成受精, 且受精方式有珠孔受精、合点受精和中部受精, 少量花粉管生长不正常, 出现花粉管顶端膨大扭曲, 花粉管分支等异常现象; 反交授粉后, 花粉在柱头上萌发时柱头乳突细胞产生强烈胼胝质反应, 影响花粉管生长, 只有少量花粉管通过花柱到达胚珠完成受精。用石蜡切片技术观察了正反杂交后杂种的胚胎发育, 正交杂种胚胎发育较早, 胚和胚乳生长较正常, 杂种胚一般均能发育至成熟; 反交杂种胚发育至心型期便不能继续发育, 胚乳也停滞在游离核阶段并最终败育。综合分析 表明, 芥菜型油菜与白菜正反杂交都存在一定程度的受精不亲和性。     

芥菜型油菜与白菜正反杂交的胚胎学研究

利用荧光技术对芥菜型油菜（Brassica juncea）与白菜（B．pekinesis）种间正反杂交后花粉萌发和花粉管生长过程进行了观察。结果显示：芥菜型油菜与白菜正交授粉后,花粉在柱头上能正常萌发,多数花粉管沿花柱到达胚珠完成受精,且受精方式有珠孔受精、合点受精和中部受精,少量花粉管生长不正常,出现花粉管顶端膨大扭曲,花粉管分支等异常现象;反交授粉后,花粉在柱头上萌发时柱头乳突细胞产生强烈胼胝质反应,影响花粉管生长,只有少量花粉管通过花柱到达胚珠完成受精。用石蜡切片技术观察了正反杂交后杂种的胚胎发育,正交杂种胚胎发育较早,胚和胚乳生长较正常,杂种胚一般均能发育至成熟;反交杂种胚发育至心型期便不能继续发育,胚乳也停滞在游离核阶段并最终败育。综合分析表明,芥菜型油菜与白菜正反杂交都存在一定程度的受精不亲和性。     

异叶苦竹花粉管生长及双受精过程

以异叶苦竹为材料,采用扫描电镜、荧光显微镜技术及传统的石蜡制片技术,解剖观察其花粉管生长途径及双受精过程。结果表明:(1)授粉后,花粉在柱头上吸水膨胀,约30 min即可萌发。(2)授粉1～2 h后花粉管可达到花粉长度的5～10倍,花粉管在柱头分支中进一步伸长,并开始伸入花柱中生长。(3)授粉后5 h,大量花粉管沿引导组织进入花柱基部与子房顶部之间的子房壁,有少量花粉管在子房壁与外珠被之间的缝隙中生长。(4)授粉后8 h,少量花粉管到达珠孔端。(5)授粉后15～18 h,精核与极核融合,形成初生胚乳核;精、卵核融合,形成合子。(6)授粉后20～30 h,仍可在花柱中见到大量呈束状的花粉管。(7)授粉后48 h,子房内的大部分花粉管出现解体,大多数花粉死亡。研究认为,精细胞到达胚珠的时间为8 h。     

异叶苦竹花粉管生长及双受精过程（英文）

以异叶苦竹为材料,采用扫描电镜、荧光显微镜技术及传统的石蜡制片技术,解剖观察其花粉管生长途径及双受精过程。结果表明:(1)授粉后,花粉在柱头上吸水膨胀,约30min即可萌发。(2)授粉1~2h后花粉管可达到花粉长度的5~10倍,花粉管在柱头分支中进一步伸长,并开始伸入花柱中生长。(3)授粉后5h,大量花粉管沿引导组织进入花柱基部与子房顶部之间的子房壁,有少量花粉管在子房壁与外珠被之间的缝隙中生长。(4)授粉后8h,少量花粉管到达珠孔端。(5)授粉后15~18h,精核与极核融合,形成初生胚乳核;精、卵核融合,形成合子。(6)授粉后20~30h,仍可在花柱中见到大量呈束状的花粉管。(7)授粉后48h,子房内的大部分花粉管出现解体,大多数花粉死亡。研究认为,精细胞到达胚珠的时间为8h。     

小毛茛雌蕊群的授粉率及花粉管生长途径

为探讨毛茛属中是否具有与慈姑属中类似的花粉管再分配现象,对小毛茛开花后不同时期柱头的授粉率和花粉量进行了统计,并采用荧光显微术观察了其花粉在雌蕊群中的萌发及花粉管生长过程。该种的每朵花中含有39.2±9.9个离生心皮,开花过程常持续4~6d,开花2d后,柱头授粉率就可达到100%,平均每柱头的花粉量在3d后达到17.0±2.4粒。虽然开花的当天即有少数柱头落置有花粉粒,但花粉萌发常自开花的次日开始。花粉管先沿各雌蕊之向心一侧的组织中穿行至子房基部后部分花粉管转向胚珠,由珠孔进入珠心。从花粉粒落置于柱头到花粉管进入珠心大约需要24h。尽管毛茛属有着与慈姑属类似的多心皮雌蕊群,但大量的荧光显微观察表明,与慈姑属植物中不同的是,小毛茛的花粉管生长均局限于每一雌蕊中而不能穿过子房向其他雌蕊生长。雌蕊群的比较解剖发现野慈姑的子房基部有一条通向花托表面的孔道,这正是花粉管由一个雌蕊到另一个雌蕊的通路,但小毛茛的子房基部不存在此孔道。     

高山杜鹃与大喇叭杜鹃种间杂交过程的观察研究

以高山杜鹃‘Nova Zembla’为母本,大喇叭杜鹃为父本进行人工杂交授粉,利用荧光显微镜对杂交组合花粉萌发及花粉管生长过程进行观察,并统计其杂交的田间坐果率。结果显示:(1)授粉后1d花粉开始萌发形成花粉管,其萌发率在授粉后1～5d内显著增长,其后增长缓慢,到第12天萌发率最高达37.36%。(2)花粉萌发后花粉管生长速度由慢变快,授粉后2d花粉管进入花柱,7d进入子房,10d进入胚珠;实验中杂交花粉管与胚珠虽有结合,但与胚珠结合率低,授粉后12d仅7.42条花粉管进入胚珠。(3)在花粉管生长过程中,伴有大量异常现象,表现为授粉后柱头细胞、花粉管、花柱引导组织、子房组织、胚珠中的胚囊等部位依次出现胼胝质沉积反应,花粉管生长中出现的膨大、先端沉积胼胝塞而中途停止生长、螺旋扭曲、粗细不均、杂乱生长或螺旋膨大且逆向生长等异常。(4)该实验杂交的田间坐果率为零。研究表明,高山杜鹃‘Nova Zembla’与大喇叭杜鹃杂交不亲和,杂交后花粉管生长的异常行为可能是种间杂交不亲和的主要原因,且受精前障碍与受精后障碍可能同时存在。     

Pollen tubes enter neighbouring ovules by way of receptacle tissue,resulting in increased fruit-set in Sagittaria potamogetifolia Merr

Using fluorescence microscopy, deposition of pollen on stigmas and pollen tube growth in the gynoecium of Sagittaria potamogetifolia Merr., a monoecious species with an apocarpous gynoecium, were observed. The maximum rate of pollination averaged 83.9 +/- 4.7 %, and the number of pollen grains per stigma ranged from zero to 30. Pollen tubes grew through one stigma to the base of the ovary at almost the same speed, but generally only one of the pollen tubes then turned towards the ovule and finally entered the nucellus through the micropyle. The other pollen tubes grew through the ovary base and the receptacle tissue into ovules of adjacent carpels whose stigmas were not pollinated or which had been pollinated later. This phenomenon is termed pollen tube 'reallocation' by the authors. To verify the direct effect of the phenomenon on fruit set, artificial pollination experiments were conducted in which two or more pollen grains were placed onto only one stigma in each gynoecium; frequently more than one fruitlet was obtained from each flower treated. The reallocation of pollen tubes among pistils in the gynoecium could effect fertilization of ovules of unpollinated pistils and lead to an increase in sexual reproduction efficiency. It would, to some extent, also increase pollen tube competition among pistils of the whole gynoecium.     

COORDINATED TIMETABLES FOR MEGAGAMETOPHYTE DEVELOPMENT AND POLLEN TUBE GROWTH IN RHODODENDRON NUTTALLII FROM ANTHESIS TO EARLY POSTFERTILIZATION

Rhododendron nuttallii T. W. Booth (Ericaceae) was used to derive concurrent timetables for megagametophyte, pollen tube and early postfertilization development from anthesis through 3 wk after pollination, based on timed collections of self-pollinated pistils. Stages of development were determined for over 33,500 cleared ovules, including, for selected collection dates, stages on different portions of the placenta. Pollen tube information was obtained by fluorescence microscopy of pistil squashes stained with aniline blue. Because of the very large number of ovules observed, it was possible to recognize a much more closely graded series of stages in megagametophyte development than is usually the case. While a range of stages occurred on all days, development progressed steadily from a majority of functional spores and 2-nucleate gametophytes on the day of anthesis to mostly a late zygote-primary endosperm stage at 18 days, and some 2-celled endosperm stages at 21 days, after pollination. At all times the most advanced stages, including first pollen tube entries, occurred on the outer surface of the lower half of the placenta, and the youngest on the inner surface of the uppermost portion. Fertilizable ovules were not found in any frequency until 8 days after pollination (then in only about 34% of the ovules); a few fertilized ones were seen after 10 days but constituted less than 5% until 12 days after pollination, thereafter increasing to about 60%. Fertilization occurred in any one of three morphologically recognizable stages distinguished by position and state of fusion of polar nuclei. Pollen germinated on the stigma 1–2 hr after pollination, and pollen tubes grew at a rate of about 1–1.25 cm/day, reaching the top of the ovary in 8–9 days with the first ovule entries seen after 10 days. There was a close correlation between megagametophyte development and pollen tube growth, with large numbers of functionally mature ovules not being found until pollen tubes had reached the ovary. While nuclei within ovules could not be distinguished in the squashes, three gametophyte stages that could be recognized—unelongated, elongated either without or with a pollen tube—were tallied for almost 29,000 ovules. The progression in these general stages corresponded well with that documented in more detail from cleared ovules. Unpollinated pistils showed a similar progression of gametophyte stages until the time fertilization would start to occur, after which there was continued accumulation of functionally mature ovules. A variety of abnormally developed and/or collapsing(ed) ovules or gametophytes were seen; collectively, they averaged over 8.6% of all ovules.     

Observation of Pollen Tube Behaviour and Early Embryogenesis Following Interspecies Pollination Between Actinidia deliciosa and A. arguta

The pollen tube behaviour in the style and early embryogenesis following interspecies pollination between Actinidia deliciosa No. 26 and A. arguta were observed by means of fluorescence and light microscopy. Pollen grains germinated on the papillate stigma and pollen tubes grew along the V-shaped open-type style. Pollen tubes showed slower growth and reached the ovules 50--60 hours later than those of the control. Several abnormalities of pollen tubes have been observed at the base of the style, including wave-like pollen tubes, pollen tubes with swollen or pointed tips, with variable diameters, and a few with irregular growth. Random deposition of callose along pollen tube wall and even the whole wall was observed. About 26.74 % of the ovules were successfully fertilized and developed into seeds, among them 68.50% of the seeds were normal and 31.50% were abortive. About 11.41% were empty seeds without embryo and endosperm. Unfertilized small ovule was 61.45 %. Normal seed and its embryo were smaller than those of the control. The development of embryo was of the Soland type. The endosperm was cellular. The zygote remained quiescent for about 12-15 days before it started to divide, eventually forming a cotyledonary embryo 50 days after pollination.     

焦核与大核龙眼雌配子体发育、授粉受精及早期胚胎发育的比较研究

利用人工授粉,采用压片法对大核龙眼‘九月乌’和焦核龙眼‘闽焦64-1’、‘闽焦64-2’、‘白核’等的自交与杂交后花粉管的生长特性进行研究,同时应用常规石蜡切片技术对大核与焦核龙眼的雌配子体以及合子胚早期发育进行观察。结果表明,龙眼胚珠在单核胚囊形成前就开始败育,且焦核品种(系)的败育率显著高于大核品种。不同亲本组合的授粉率存在差异,所有授粉组合在授粉36～48 h后均能观察到1个花粉管生长并进入胚囊受精。焦核品种(系)的胚胎在谢花后10 d开始败育,且败育率明显高于大核品种。受精是龙眼子房发育的首要条件,胚珠败育的雌蕊在谢花后10 d不膨大,不能发育形成焦核果实。谢花后10～30 d的早期胚胎败育是形成焦核龙眼的主要原因。焦核品种‘白核’胚乳具有成胚能力。约有24%的‘闽焦64-1’胚珠在胚胎发育过程中,其助细胞、合点端细胞及胚乳发生异常,这可能与早期胚胎败育有关。     

Cytological study of pollen tube growth and early seed development inPetunia inflata

Pollen tube growth from the stigma into the ovule, and the early fruit and seed development following fertilization were examined using fluorescence microscopy, scanning electron microscopy and light microscopy inPetunia inflata. After growing intercellularly in the transmitting tract for 24–36 hr, the pollen tubes emerged into the top part of the ovary cavity and grew along the surface of the septum to reach the ovule. It grew around the furnicle and penetrated the micropyle to enter the embryo sac for fertilization. After fertilization, the endosperm nucleus divided first before the embryo, and the cell wall formation occurred following the division, exhibiting the pattern of cellular type of endosperm development. The first division of the zygote did not occur until 3 days after pollination. At 6 days after pollination, the seeds grew considerably and the endosperm has gone through multiple rounds of cell division. High starch formation in the integument, especially around the embryo sac, was also observed.     

Doubly guaranteed mechanism for pollination and fertilization in Ipomoea purpurea

• Flowers, the reproductive organs of angiosperms, show a high degree of diversity in morphological structure and flowering habit to ensure pollination and fertilization of the plants. Effect of flower movement on pollination and fertilization was investigated in Ipomoea purpurea (Convolvulaceae) in this study.
• Fluorescence microscopy was used to observe the germination of pollen grains at different temperatures.
• From 04:00 to 06:00 h, the stigma was taller than the filaments, so that self‐pollination could not occur, and cross‐pollination was carried out by insects. Pollen grains germinated rapidly after falling on the stigma; the pollen tube reached the ovule to complete fertilization after 2–3 h. From 07:00 to 09:00 h, filaments of two stamens grew rapidly and reached the same height as the stigma, thus allowing self‐crossing. But at this time, the ambient temperature was already high and was not conducive to the germination of pollen grains. The corolla closed, forming an inverted bell shape, where the inner microenvironment ensured completion of pollen germination and fertilization.
• Preferential cross‐pollination and delayed self‐crossing of I. purpurea provided a doubly guaranteed mechanism for pollination and fertilization, facilitating its adaptation to a high temperature climate.

     

扇脉杓兰花粉超微结构及花粉管生长的观察

为明确扇脉杓兰花粉形态结构及雄性生殖特性,利用扫描电镜、透射电镜和荧光显微镜对花粉形态和超微结构及花粉管生长过程进行观察。结果表明:(1)扇脉杓兰单粒花粉长球形,表面光滑无特征纹饰,有少量胶黏物质,一些表面有2个或以上的深凹陷,凹陷内有球形突起的内容物。(2)花粉壁分为由棒状的基柱小单元组成的外壁和纤维素果胶组成的内壁,有覆盖层;生殖细胞近圆形,细胞核大而致密;营养细胞多弧形,核质分散;花粉粒细胞质含有大量的线粒体、质体和小泡等细胞器,淀粉、蛋白质和多糖含量丰富。(3)花粉管萌发后沿子房壁方向伸长,授粉20d花粉管伸长生长并不明显,授粉30d伸长的花粉管中出现大量胼胝质塞,并且伸长方向转为胚珠中间,花粉管逐渐接近胚珠,在授粉后50d基本完成受精作用。研究认为,扇脉杓兰花粉发育正常,不阻碍有性生殖过程。     

Self-incompatibility inCrocus vernus subsp.vernus (Iridaceae)

Outcross, self- and mixed pollinations were performed inCrocus vernus subsp.vernus, a species with bicellular pollen, dry stigmas and hollow style. No differences were noted among the above pollinations concerning the germination of pollen and the growth of pollen tubes until the top of ovary. Within 45 min after pollinations 62% of pollen grains germinated. Pollen tubes penetrated the papilla cuticle extending along the papilla wall; on entry into stigmatic lobes they continued growth in the stylar secretion to ovarian locules. Here, however, self-pollen tubes failed to reach or to enter the ovule micropyle; while pollen tubes from either outcross- or mixed pollinations grew until fertilizing ovules. These observations gave evidence of a self-incompatibility system inCrocus, which appeared to be neutralized by mentor effect. The ovary as site of incompatibility response is discussed.